Influence Of Gravity Waves And Tides On Mesospheric Temperature Inversion Layers: Simultaneous Rayleigh Lidar And Mf Radar Observations

S. Sridharan; S. Sathishkumar; S. Gurubaran

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Influence Of Gravity Waves And Tides On Mesospheric Temperature Inversion Layers: Simultaneous Rayleigh Lidar And Mf Radar Observations

机译：重力波和潮汐对中层温度反演层的影响：同时瑞利激光雷达和Mf雷达观测

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Three nights of simultaneous Rayleigh lidar temperature measurements over Gadanki (13.5°N, 79.2°E) and medium frequency (MF) radar wind measurements over Tirunelveli (8.7°N, 77.8°E) have been analyzed to illustrate the possible effects due to tidal-gravity wave interactions on upper mesospheric inversion layers. The occurrence of tidal gravity wave interaction is investigated using MF radar wind measurements in the altitude region 86-90 km. Of the three nights, it is found that tidal gravity wave interaction occurred in two nights. In the third night, diurnal tidal amplitude is found to be significantly larger. As suggested in Sica et al. (2007), mesospheric temperature inversion seems to be a signature of wave saturation in the mesosphere, since the temperature inversion occurs at heights, when the lapse rate is less than half the dry adiabatic lapse rate.

机译：分析了三个晚上在Gadanki（13.5°N，79.2°E）上同时进行瑞利激光雷达温度测量和在Tirunelveli（8.7°N，77.8°E）上进行中频（MF）雷达风测量的过程，以说明潮汐可能产生的影响上部中层反演层上的重力波相互作用。使用中频雷达风在86-90 km的海拔范围内测量潮汐重力波相互作用的发生。在三个晚上中，发现潮汐重力波相互作用发生在两个晚上中。在第三夜，发现昼夜潮汐幅度明显更大。正如Sica等人所建议的。（2007年），中层温度反演似乎是中层中波饱和的标志，因为温度反演发生在高处，当流逝速率小于干绝热流失速率的一半时。

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《Annales Geophysicae》 |2008年第12期|p.3731-3739|共9页
作者
S. Sridharan; S. Sathishkumar; S. Gurubaran;
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作者单位

National Atmospheric Research Laboratory, Gadanki-517 112, Pakala Mandal, Chittoor, India;

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正文语种 eng
中图分类天文学、地球科学;
关键词
atmospheric composition and structure (pressure; density; and temperature); meteorology and atmospheric dynamics (middle atmosphere dynamics; waves and tides);

机译：大气成分和结构（压力;密度和温度）;气象和大气动力学（中间大气动力学;波浪和潮汐）;

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专利

1. Influence of gravity waves and tides on mesospheric temperature inversion layers: simultaneous Rayleigh lidar and MF radar observations [J] . S.Sridharan, S.Sathishkumar, S.Gurubaran Annales Geophysicae . 2008,第12期

机译：重力波和潮汐对中层温度反演层的影响：同时瑞利激光雷达和中频雷达观测
2. Large mesospheric inversion layer due to breaking of small-scale gravity waves: Evidence from Rayleigh lidar observations over Gadanki (13.5°N, 79.2°E) [J] . K. Ramesh, S. Sridharan Journal of atmospheric and solar-terrestrial physics . 2012,第Null期

机译：由于小尺度重力波的破坏而导致大的中层反演层：来自盖丹基（13.5°N，79.2°E）上的瑞利激光雷达观测的证据
3. Coordinated investigation of midlatitude upper mesospheric temperature inversion layers and the associated gravity wave forcing by Na lidar and Advanced Mesospheric Temperature Mapper in Logan, Utah [J] . Tao Yuan, P.-D. Pautet, Y. Zhao, Journal of Geophysical Research, D. Atmospheres: JGR . 2014,第7期

机译：Na激光雷达和先进的中层温度测绘仪在犹他州洛根的中纬度上层中层温度反演层和相关的重力波强迫的协调研究
4. Rayleigh Lidar Observations of Tropical (13.5°N, 79.2°E) Mesospheric Inversion Layers: A Comparison between Dynamics and Chemistry [C] . Karanam Ramesh, Sundararajan Sridharan, Karnam Raghunath Coherent laser radar conference . 2018

机译：热带（13.5°N，79.2°E）中层反演层的瑞利激光雷达观测：动力学与化学的比较
5. Rayleigh-lidar observations of mesospheric gravity wave activity above Logan, Utah. [D] . Kafle, Durga N. 2009

机译：犹他州洛根上空的中层重力波活动的瑞利激光雷达观测。
6. Gravity Wave Dynamics in a Mesospheric Inversion Layer: 1. Reflection Trapping and Instability Dynamics [O] . David C. Fritts, Brian Laughman, Ling Wang, -1

机译：中层反演层中的重力波动力学：1.反射陷波和不稳定性动力学
7. Influence of gravity waves and tides on mesospheric temperature inversion layers: simultaneous Rayleigh lidar and MF radar observations [O] . Sridharan S., Sathishkumar S., Gurubaran S. 2008

机译：重力波和潮汐对中层温度反演层的影响：同时瑞利激光雷达和中频雷达观测
8. Mesospheric Non-Migrating Tides Generated with Planetary Waves: II Influence of Gravity Waves [R] . Mayr, H. G. , Mengel, J. G. , Talaat, E. L. , 2003

机译：用行星波产生的中间层非迁移潮汐：II重力波的影响

Influence Of Gravity Waves And Tides On Mesospheric Temperature Inversion Layers: Simultaneous Rayleigh Lidar And Mf Radar Observations

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